KINGSTON, R.I. — Justin Richard spent nearly 10 years as a beluga whale trainer at Mystic Aquarium in Connecticut, where he taught the Arctic marine mammals to voluntarily submit to regular health screenings. But it’s not so easy to conduct health screenings of wild whales, so he has taken what he learned at Mystic to the University of Rhode Island in an effort to find non-invasive ways of monitoring the health of wild belugas.

A doctoral student in the URI Integrative and Evolutionary Biology Program, Richard said he is trying to learn whether he can determine a whale’s gender, reproductive status and other information from the cells and hormones that they exhale.

“Essentially, I study whale snot,” he said. “The idea is to develop non-invasive methodologies for learning about belugas. The current standard practice for collecting this information is to fire a biopsy dart into the animal. But we may be able to learn most of what we want to know simply by catching their exhale.”

Beluga whales have a number of adaptations that allow them to thrive in the Arctic, including their bright white color, large deposits of insulating blubber, vocalizations that enable them to communicate in an ice-covered environment and their ability to feed on whatever food comes their way. But the Arctic environment is rapidly changing because of climate change, which raises concerns about their conservation.

Some populations of belugas, including those in Cook Inlet, Alaska, and the St. Lawrence Seaway, are already threatened, according to Richard.

“The methodology I’m developing would be most useful in situations where researchers aren’t allowed to catch the animals because they’re endangered,” Richard said. “It will help scientists answer questions that they haven’t been able to answer before because they can’t access the animals.”

Richard is beginning his research with the beluga whales at Mystic Aquarium, where he conducted a number of research projects during his years as a whale trainer. By collecting exhale samples and matching blood samples from the same animals, he will be able to compare the cell and hormone levels in the two.

“Other researchers have studied whale hormone levels in their blow, but without the ability to compare them to blood samples, it’s a challenge to understand what these levels mean for a whale,” he said.

The Connecticut native also intends to spend time in Arctic Canada the next two summers to try to catch exhale samples from wild belugas.

“Nobody has ever seen belugas breed in the wild, so there’s not a lot known about their reproduction,” Richard said. “At certain times in the summer they come into shallow water with their calves, and I hope to collect exhale samples from a platform mounted where the whales are. The previous calf may hang around with mom to take care of the next calf, so I want to document that behavior and collect exhale samples to learn about that relationship.”